Internet of things

Internet of things  IOT4101

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Durée totale du cours: 24 H

Semestre : 4

Nombre de crédits : 2

Prerequisites

educational goals

Targeted skills

Keywords

Content

• Understanding the concept and evolution of IoT
• Key components and architecture of IoT systems
• IoT applications across industries and domains

• Wireless communication protocols for IoT: Wi-Fi, Bluetooth, Zigbee, LoRaWAN , Sigfox, NBIoT
• Cellular technologies (3G, 4G, and 5G) for IoT connectivity
• MQTT and CoAP protocols for IoT data transmission

• Overview of various IoT sensors and actuators
• Interfacing sensors with microcontrollers and IoT platforms
• Sensor data collection, processing, and interpretation

• Data storage and management in IoT systems
• Introduction to cloud computing and IoT cloud platforms
• Big Data analytics for extracting insights from IoT data

• Understanding IoT security challenges and threats
• Security mechanisms for IoT: encryption, authentication, authorization
• Privacy concerns and compliance in IoT applications

• Introduction to IoT development platforms and tools
• Building and deploying simple IoT applications
• Hands-on projects with Arduino, Raspberry Pi, or similar platforms

• Network topologies and architectures for IoT
• IPv6 and 6LoWPAN for addressing IoT devices
• Device management protocols: TR-069, OMA-DM

• Integration of IoT with existing IT infrastructure
• Edge computing and fog computing in IoT systems
• Emerging trends in IoT: AI, blockchain, industrial IoT

Learning outcomes

1. IoT Fundamentals: Understand the fundamental concepts, evolution, and significance of IoT in various industries, demonstrating knowledge of key components and architecture of IoT systems.
2. IoT Communication: Comprehend different wireless communication protocols for IoT devices, including Wi-Fi, Bluetooth, Zigbee, LoRaWAN, Sigfox, NBIoT and cellular technologies like 3G, 4G, and 5G.
3. Sensor and Actuator Integration: Be proficient in integrating IoT sensors and actuators with microcontrollers and platforms, along with data collection, processing, and interpretation skills.
4. Data Management and Analytics: Demonstrate the ability to manage and analyze IoT data, including storing, processing, and extracting insights from large datasets using cloud computing and analytics tools.
5. IoT Security and Privacy: Understand IoT security challenges and implement security mechanisms such as encryption, authentication, and authorization to ensure data confidentiality and integrity. Consider privacy concerns and regulatory compliance.
6. IoT Development and Prototyping: Acquire practical skills in developing IoT applications using development platforms like Arduino, Raspberry Pi, or similar devices, and deploy simple projects.
7. IoT Networking and Protocols: Possess knowledge of IoT networking architectures, including network topologies, IPv6, 6LoWPAN, and device management protocols like TR-069 and OMA-DM.
8. IoT Integration: Gain the ability to integrate IoT systems with existing IT infrastructure, enabling seamless communication and data exchange between IoT devices and other systems.
9. Emerging IoT Trends: Stay updated on emerging trends within the IoT domain, such as artificial intelligence, blockchain, and edge computing, and understand their potential impacts.
10. IoT Project Design: Plan and design IoT projects, considering factors like device selection, communication protocols, data management, security, and scalability.
11. IoT Implementation and Management: Successfully implement and manage IoT solutions, addressing challenges related to connectivity, scalability, security, and interoperability.
12. Problem Solving and Troubleshooting: Apply critical thinking to identify and solve issues that may arise during IoT system design, implementation, or operation.
13. Collaboration and Communication: Collaborate effectively in interdisciplinary teams to develop and implement IoT solutions, and communicate technical concepts clearly to both technical and non-technical stakeholders.
14. Ethical and Legal Considerations: Demonstrate awareness of ethical considerations related to IoT, including data privacy, consent, and the responsible use of IoT technologies.